Product details

Type Latch Supply voltage (Vcc) (Min) (V) 2.5 Supply voltage (Vcc) (Max) (V) 38 Operate point (Max) (mT) 3.4, 5, 9, 18 Release point (Min) (mT) -3.4, -5, -9, -18 Output Open drain Operating temperature range (C) -40 to 125, -40 to 150
Type Latch Supply voltage (Vcc) (Min) (V) 2.5 Supply voltage (Vcc) (Max) (V) 38 Operate point (Max) (mT) 3.4, 5, 9, 18 Release point (Min) (mT) -3.4, -5, -9, -18 Output Open drain Operating temperature range (C) -40 to 125, -40 to 150
SOT-23 (DBZ) 3 7 mm² 2.92 x 2.37 TO-92 (LPE) 3 13 mm² 4 x 3.15 TO-92 (LPG) 3 6 mm² 4 x 1.52
  • Digital bipolar-latch Hall sensor
  • Superior temperature stability
    • BOP ±10% over temperature
  • Multiple sensitivity options (BOP / BRP)
    • ±1.3 mT (FA, see Device Nomenclature)
    • ±2.7 mT (AD, see Device Nomenclature)
    • ±6 mT (AG, see Device Nomenclature)
    • ±12 mT (BC, see Device Nomenclature)
  • Supports a wide voltage range
    • 2.5 V to 38 V
    • No external regulator required
  • Wide operating temperature range
    • TA = –40 to +125°C (Q, see Device Nomenclature)
    • TA = –40 to +150°C (E, see Device Nomenclature)
  • Open-drain output (30-mA sink)
  • Fast 35-µs power-on time
  • Small package and footprint
    • Surface mount 3-pin SOT-23 (DBZ)
      • 2.92 mm × 2.37 mm
    • Through-hole 3-pin TO-92 (LPG, LPE)
      • 4.00 mm × 3.15 mm
  • Protection features
    • Reverse supply protection (up to –22 V)
    • Supports up to 40-V load dump
    • Output short-circuit protection
    • Output current limitation
  • Digital bipolar-latch Hall sensor
  • Superior temperature stability
    • BOP ±10% over temperature
  • Multiple sensitivity options (BOP / BRP)
    • ±1.3 mT (FA, see Device Nomenclature)
    • ±2.7 mT (AD, see Device Nomenclature)
    • ±6 mT (AG, see Device Nomenclature)
    • ±12 mT (BC, see Device Nomenclature)
  • Supports a wide voltage range
    • 2.5 V to 38 V
    • No external regulator required
  • Wide operating temperature range
    • TA = –40 to +125°C (Q, see Device Nomenclature)
    • TA = –40 to +150°C (E, see Device Nomenclature)
  • Open-drain output (30-mA sink)
  • Fast 35-µs power-on time
  • Small package and footprint
    • Surface mount 3-pin SOT-23 (DBZ)
      • 2.92 mm × 2.37 mm
    • Through-hole 3-pin TO-92 (LPG, LPE)
      • 4.00 mm × 3.15 mm
  • Protection features
    • Reverse supply protection (up to –22 V)
    • Supports up to 40-V load dump
    • Output short-circuit protection
    • Output current limitation

The DRV5013 device is a chopper-stabilized Hall effect sensor that offers a magnetic sensing solution with superior sensitivity stability over temperature and integrated protection features.

The magnetic field is indicated via a digital bipolar latch output. The IC has an open-drain output stage with 30-mA current sink capability. A wide operating voltage range from 2.5 V to 38 V with reverse polarity protection up to –22 V makes the device suitable for a wide range of industrial applications.

Internal protection functions are provided for reverse supply conditions, load dump, and output short circuit or overcurrent.

 

 

 

 

The DRV5013 device is a chopper-stabilized Hall effect sensor that offers a magnetic sensing solution with superior sensitivity stability over temperature and integrated protection features.

The magnetic field is indicated via a digital bipolar latch output. The IC has an open-drain output stage with 30-mA current sink capability. A wide operating voltage range from 2.5 V to 38 V with reverse polarity protection up to –22 V makes the device suitable for a wide range of industrial applications.

Internal protection functions are provided for reverse supply conditions, load dump, and output short circuit or overcurrent.

 

 

 

 

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Technical documentation

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Type Title Date
* Data sheet DRV5013 Digital-Latch Hall Effect Sensor datasheet (Rev. K) PDF | HTML 15 Aug 2019
Application note Brushless DC Motor Commutation Using Hall-Effect Sensors (Rev. B) PDF | HTML 30 Nov 2022
Application note Hall Sensor and Magnet Selection for Auto Body Motor Module Design PDF | HTML 31 Aug 2022
Application note Differences Between Optical and Magnetic Incremental Encoders PDF | HTML 17 Aug 2022
More literature Introduction to Hall-Effect Sensors PDF | HTML 29 Mar 2022
Application note Design Considerations & Measurement Results, Mechanical Hall-Effect Flow Meters PDF | HTML 23 Mar 2022
Application note Hall-Effect Sensors in Vacuum Robots PDF | HTML 22 Mar 2022
Application note Designing With Hall-Effect Sensors for Rotary Flow Meter Applications PDF | HTML 07 Mar 2022
Application note Understanding and Applying Hall Effect Sensor Data Sheets (Rev. A) PDF | HTML 07 Dec 2021
Application note Incremental Rotary Encoders (Rev. B) PDF | HTML 02 Dec 2021
Application note Two-State Selector Using Hall-Effect Sensors PDF | HTML 01 Dec 2021
User guide HALL-ADAPTER-EVM User's Guide (Rev. C) PDF | HTML 21 Oct 2021
Application note Hall-Effect Sensors in Low-Power Applications (Rev. B) PDF | HTML 15 Oct 2021
Design guide 18-V/400-W 98% Efficient Compact Brushless DC Motor Drive Design Guide 23 Aug 2016
White paper Sub-microamp, Intelligent Hall-Effect Sensing Delivers 20-year Battery Life (Rev. A) 07 Jul 2016
Technical article Center stage with Hall sensors 22 Jul 2014
Technical article Rediscover the Hall sensor 30 May 2014
Technical article Mind spinning possibilities: Hall effect sensor bandwidth in BLDC motors 23 May 2014

Design & development

For additional terms or required resources, click any title below to view the detail page where available.

Evaluation board

HALL-ADAPTER-EVM — Hall sensor breakout adapter evaluation module

Speed up your switch, latch and linear Hall sensor prototyping and testing with the HALL-ADAPTER-EVM, which provides a fast, easy and inexpensive way to interface with small ICs. You can connect any supported Hall sensor using the included Samtec terminal strips or wire them directly to existing (...)
User guide: PDF | HTML
Not available on TI.com
Evaluation board

TIRSLK-EVM — TI-RSLK MAX low cost robotics system learning kit for university students and engineers

The TI Robotics System Lab kit MAX (TI-RSLK MAX) accelerates the learning and building of robotics systems, leading students to explore real-world applications. The TI-RSLK MAX is the fast track to getting students up and running with their own solderless robotic kit, providing hardware and (...)
Not available on TI.com
Calculation tool

HALL-PROXIMITY-DESIGN — Magnetic sensing proximity tool

HALL-PROXIMITY-DESIGN is a software tool that facilitates rapid iterative design for magnet and Hall-effect sensor systems.
Calculation tool

Magnetic Sensing Proximity Tool (Rev. F)

SLYR071F.ZIP (2180 KB)
Reference designs

TIDA-00901 — Automotive 12-V, 200-W (20-A) BLDC Motor Drive Reference Design

This is a three-phase brushless DC motor drive designed to operate in 12-V automotive applications such as HVAC blowers. This reference design drives motors in the 200-W range and can handle currents up to 20 A. Utilizing either sensorless operation or external hall-effect sensors, the (...)
Design guide: PDF
Schematic: PDF
Reference designs

TIDA-00919 — Single-Layered, Refrigerator Fan Reference Design Enabling High Efficiency Drive

This reference design is a singled-layered, cost-effective, small-form-factor, three-phase sinusoidal motor drive for sensored BLDC fan motors specified up to a maximum current of 1 A RMS at 18 V maximum. The unique, single-sided design helps to bring down the system cost. The on-board Hall (...)
Design guide: PDF
Schematic: PDF
Reference designs

TIDA-00875 — Single Phase Brushless DC (BLDC) with Brushed Motor Driver Reference Design

TIDA-00875 demonstrates how to reconfigure existing brushed motor drivers to control single phase brushless (BLDC) motors. The DRV8801 and DRV8701 are used to control a single phase BLDC motor. The DRV8801 design controls the motor at 100% duty cycle. When the device is powered up, the motor runs. (...)
Design guide: PDF
Schematic: PDF
Reference designs

TIDA-00197 — Speed-Controlled 24V Brushless DC Outrunner Motor Reference Design

This advanced motor implements closed-loop speed control to maintain an exact RPM across the load torque profile.  The magnetic rotor position is sensed by the DRV5013 Hall-effect sensors, and the DRV8308 controller decides when to drive the CSD88537ND FETs that energize the coils.  No (...)
Test report: PDF
Schematic: PDF
Reference designs

TIDA-00196 — 12V and 24V Brushless DC Outrunner Motor Reference Design

This 6 cm motor is form-factor ready; simply hook up the power and watch it spin!  The simple and reliable design is easy to modify to support speed and current system needs.  The magnetic rotor position is sensed by the DRV5013 Hall-effect sensors, and the DRV8307 controller decides when to drive (...)
Test report: PDF
Schematic: PDF
Package Pins Download
SOT-23 (DBZ) 3 View options
TO-92 (LPE) 3 View options
TO-92 (LPG) 3 View options

Ordering & quality

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  • Ongoing reliability monitoring

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